Corn detasseling machine



0d. 17, `1,950 w, R, DAViEs 2,526,543

CORN DETASSELING MACHINE w. R. DAvlEs oRN DETASSELING MACHINE 'ogn 17, 195o SheetsfSheet 2 Filed Dec. 26, 1944 s sheets-sheet s' W. R. DAVIES CORN DETASSELING MACHINE Oct. 17, 1950 Filed Dec. 26, 1944 14h/ZZP body of the corn stalk; it

Patented Oct. 17, 1950 UN-lTsD STATES PATENT oFFlCE 2,526,543 Y Y v l CORN DE'rAssELlNG MACHINE Walter R. Davies, Shakopee, Minn., assignor to Northrup, King & Co., Minneapolis, Minn., a corporation of Minnesota Application December 26, 1944, Serial No. 569,875

.'My present invention relates to improvements .in machines adapted particularly for use ,inV detasseling (removing the tassels from) various varieties of corn.

The detasseling of corn to prevent or control cross-pollination is a procedure practiced to a very wide extent particularly in connection with the raising of hybrid seed corn, and has hitherto been carried out largely, if not wholly, by hand pulling or cutting of the tassel from the main being understood that the tassel of the corn is the pollen-yielding growth at the extreme top of the corn stalk.

An object of the present. invention is, therefore, the provision of a machine which, when moved through a corn field, will progressively cut Y joff or otherwise remove the' tassels from the upper ends of thecorn stalks without injuring or .disturbing any portion of the corn stalk below the plane ofY severance; In this connection, at-

tention isA directed to the fact that the present invention deals with the provision of automatic machinery for detasselng of corn for the purpose of controlling orinfluencing `its growth, character, and seed-producing qualities, and has,

' of necessity, encountered and solved problems 'entirely foreign to harvesting machines, of which K there are many examples in the prior art. i

Another objective of the present invention is the provision of a machine having all the' ad- 9 Claims. (Cl. 56--15) vantageous characteristics set out above, andV which incorporates means whereby a plurality of laterally spaced parallel rows of corn may be automatically detasseled during a single run of the machine through a field.

A further object of the invention is the provivsion of a machine of the general character 'outlined above, wherein there are provided one or more gathering and cutting heads or units mounted or connected for verticaladjustments A by the operator of the machinewhile the machine is moving through afield, so that corn stalks of different heights may be cut at the desiredheight to effectively remove the pollen- -bearing portion of the tassel without impairing the remainder of the corn stalks. To this end,

the present invention, in its preferred form illustrated, provides a narrow gauge power-driven @vehicle (sometimes hereinafter referred to as a tractor) that is adapted to be driven down a lane formed between adjacent rows of corn. 'This power-driven vehicle or tractor pulls and partially supports a superstructure carrying a laterally spaced plurality of cutting and gathering heads, each adapted to function in connection with a different row of corn, and which superstructure spans adjacent rows of corn stalks and is further supported bywheels running down adjacent lanes. These wheels may hereinafter be referred to as ,outboard wheels.

Still another object of the present invention is the provision of an improved power-driven'gath-l ering and severing'head or unit which, as the machine travels in a straight line through a field, will efciently gather in and feed to the cutter the tassel ends of successively encountered corn stalks of a common row, but which, corn stalks, may be somewhat staggered with respect to a straight line. To this' end I provide, in the preferred embodiment of the invention herein illustrated, a plurality of cutting and-gathering heads each comprising an' elongated pair of lendless conveyers arranged to'form a rear- -wardly converging gathering mouth vtherebetween. These laterallyfadjacent endless conveyers normally run in face-to-face contact adfjacent their rear end portions and are associated with the cutter that laps the engaged portions of the laterally adjacent conveyers.Y With this arrangement, a relatively wide gathering` mouth is 'formed between the rearwardly converging outer *face portions of adjacent conveyers whereby staggered corn stalks will be eiectively drawn between the converging conveyers and guided to the point o f convergence of the two' conveyers.

When the corn stalks reach the point of convergence of the opposite conveyers, they are 'squeezed tightly therebetween andY fed with Va positive action rearwardly to the cutter. yPrefer-` ably,wand in the preferred embodiment of the invention illustrated, the' conveyers Vof the gathering and cutting heads are in the nature of resilient endless V-belts that Vrun over V-groove pulleys. In connection with' the preferred embodiment of the invention illustrated, it will also be seen that in such preferred arrangement the belts of opposite conveyers runin outer face to outer face 4contact about the'peripheral portion of a pulley of uone of the conveyers, and that the cutter laps the said arcuate portion of a pulley ."belt of theconveyer I3 ,is` indicated by I3'.

3 over which the belts of opposite conveyers run.

The above and many other important objects and advantages of the invention will be made apparent from the following specification, claims, and appended drawings.

In the accompanying drawings, like characters indicate like parts throughout the several views.

Referring to the drawings:

Fig. l is a front and top perspective view of a machine embodying the invention;

Fig. 2'is a side perspective view of the machine f Fig. 1;v

Fig. 3 is an enlarged detail view of a cutter head and certain immediately associated parts taken.`

on the section line 3 3 of Fig. 1 and looking downwardly;

Fig. 4 is an enlarged transverse sectional view taken on the line 4 4 of Fig, 3;

Fig. 5 is an enlarged transverse Sectional view taken on the line 5 5 of Fig.y 3; l

Fig. 6 is an enlarged fragmetary'view, Ywith some parts broken away and some parts shown in section, taken on the line 6 6 of Fig. 1; and

7 is an enlarged sectional view taken on the line 7 7 o1l1"ig.,l. 4 n

The main power-drivenvehicle or tractor unit ofthe machine is indiatedas an entirety by I and isgathree-wheeled affair comprising a motorcycle `type frame structure 2 having `a customary operators seat 3, handlebars vtI, front wheel 5, and rear` wheels- 6; the rear wheels B being mounted on a common axlein such closely spaced relation as to permit the tractortopaSSj freely down a lane .between ,adjacentrows 0f. @9.111- The mOtO'lCYC'le conventional driving, co nnections, not shown, to

v and left handgathering and cutting headsfwhich are laterally spaced tosirnultaneOuSly Operate 011 I3c of conveyer I3 are journalled on similar nutequipped stub shafts I5 anchored to the frame arms I0, and the pulleys I2a, |21) and |20 of the conveyer I2 are similarly anchored by stub shafts i5 to the frame arms 9. It is important to note, however, that stub shafts I5 of the front pulleys Ia and |30. of the conveyers I2 and I3 respectively have their reduced diameter lower ends anchored in forwardly and rearwardly extending slots I9 which permit belt tightening adjustments of the front pulleys IZa and I 3a.

'I he rotary knives or saws I4 are provided with ycentral apertures for reception or" the hub portions 2G of their respective pulleys lsb and are anchored to said pulleys for common co-aXial rotation therewith by screws, or the like, 2|; and these rotary knives or saws I4 are of considerably greater diameter than their respective cooperating pulleys I3b.

. Now, by reference particularly to Fig. 3, it will b e seen that thel pulleys I3b and ISC of the conveyers I Z'are so positioned with respect to the pulleys adjacentrows of corn. Thesecuttingand'gatherand agcutter in the nature otarotary knife' or saw i4. lThe conveyers 2 and I3 each involve an endless conveyer element runningover front, rear,

'and intermediate rotary guide elements. In the preferred embodiment of the invention illustrated, thev endless conveyer elements are the nature of-more or less uresilient V-ibelts and these run over rotary guide.,.elemen ts in the nature of VV- groove pulleys. The endless V- beltof the conveyer I2 isLindicatedfby I2'- andthe endless V- The front, rear and intermediate V-groove pulleys or rotary guide elements ofthe endless conveyer I2 are respectively indicated byl I2a, I2b and I2C; andthe irontyrearl and intermediate V-groove pulleys or rotary guide; elements of the endless conveyer I3 are respectively indicatedby |30., I3b and I3c. Y

The pulley I3b of conveyer I3 of each gathering and cutting headunit is journalled on a stub shaft I5 having a reduced diameter lower end I6 thatv projects throughithe; vapex-'portion IIY-of the V- .shaped frameandis clamped rigidlyin' position -byymeansi'ofa suitable bolt' I7. V'Ihestub rshafts i5 are also provided with reduceddiameter upper end portions to which are applied a suitable washer and a retainer nut I8. The pulleys I3d and I3!)v and |30 of their cooperative conveyers I3, that the belts I2 will run in outer face contact with the belts I3 of their `respective cooperative conveyer-s for part 'o f'ftheir runsbetweentheir own pulleys I 'c and "I'Sb "and for'p'a'rt of' `their runs around their ownre'arpL1lleys /I2b. V Tn""other words, it willbe seen that the 'belts I2""and`iI-3 'ofl each cuttingandcorveyirigunit run in outer face contactover arcuateportion's'ofintermediate pulley I3@ of conveyorj1'3"and"over"an jarcuate portiorifof rear""p`ll`e'y 'I'2bf1of conveyerifI Now by further reference' particularly to Figs. A3 and 4 it will'be seen thatithe 'rotary'knives or saws I4 `underlap that arcuate port'ron'gof the rear pulleys I2?) oi conveyers I2 where'atftle'cooperating belts I2 and I3 i'un in ,facefto 'fafct Contact fHenca herearwardly;converging ined 'between adjacent cooperating cenve'yer belts l 2f* anni arefeianvely wide lat their'irnt 'eindssolth heywill be very effective in gatheriiigi'in" the pperer'rds' of Vcorn operatingjoppcste belts-t which peints the stalks will befed into y"theftiornr1a .lly closed Yspaces ip )etween their 'opposite lbelts, 'At Ythispoint it :shouldbe clearly understood thatt'leopposite belts y"|12 and T3 'are' driven,through/ connections hereinafter described, in directions producingrearward feed `movement between thebelts and "at sr'ieedsf1v pro- `ducing rearwardin'o .ling the speed"of' `f orward"ni-overhentof the-ma- Ychine. `With this fafrran'g'ement, there will be subent. substantially Vequalstantiallyno 'frwardlor rearward movement imparted to the cornstalks v'as theyj'aregripped tightly between opposite rearwardly 'm'oving Aportions r`or`rnall`y efll'g''llgdlliiolrtibllls of thebelts. Irithls Connection itis aispgimpmjtnetobear in mind the b elts areof. .the 'conventional rubber and encefand.elaslncltyto ,grip thec'rn stalks tightly therebetween without producingay shearing action in andof themselves. "Oi course, .the corn stalks will be subject toktheshe'aring action ,ofthefro- Qta'ry knives or Vsaws-Ilwhile theyjare still ri'nly gripped between the normally engaged Vouter faces of FcooperatingbeltsfI2' arldfl3fas will be seen The elements I4 have been referredto ask-hives .0r; sawsfbecause they `are provided withy ne teeth.

'frames below the rotary provided with up-turned of the knivesV and up-turned flanges 26 at the The outwardly 'diverging gathering mouths formed between the `cooperating belts I2v and I3,V are forwardly and outwardly extended by frame extensions 22 that 'are anchored fast to Vthe forward end portions of arms 9 and I6.

K. In the preferred form illustrated-the gathering and cutting heads are provided with knife guards 23 that are anchored by rivets, 'or' the like, 24 to the apex portions II of the V-shaped knives I4 and which are fiangesr25 rearwardly sides of the knivesy I4. ByA reference particularly 'to Fig@ 3 it will nbe seen that these knifev guards 23 forwardly terminate well back of the cutting Azone so that they do not interfere with the cutting actions of the knives or saws I4.

Also in the preferred embodiment ofthe in- Venton,k illustrated, it will be noted that the rotary guide elements or pulleys I3c of the conveyers vI3 are equipped with toothed feeding wheels 21 that are telescoped over the upper hubs v of said pulleys I3c and are anchored theretofor common rotation therewith by set screws 28. These toothed feeding wheels 21 have teeth 28 that overlap the arcuate lines of contact of the outer faces of adjacent belts I2 and I3 and serve to engage corn stalks and positively feed the same into the normally closed spaces between the adjacent cooperating belts I2 and I3. As previously indicated, the gathering and cutting heads, just above described, are vertically adjustably supported from a super structure that has. its front end-portion mounted onfand supported from the tractor I and its rearend portion supported from a pair of outboard wheels. These so-called outboard wheels, indicated by 29, are spaced from the longitudinal center of the tractor, a distance approximately equal to the space between adjacent rows of corn, so that the said wheels 29 will run down the centers of corn field lanes adjacent the lane traversedby the tractor I. The super structure carrying the gathering and cutting heads is, in fact, in the nature of a trailer pulled and partially supported by the tractor unit and comprises an upwardly and rearwardly diverging pair' of frame members 30 connected to the tractor I through the medium of a ball and socket joint 3I, shown best in Fig. 2. The upper ends of the frame members 30 are secured fast to a Ytubular cross member 32 to the outer ends of which are rigidly secured rearwardly depending tubular leg-acting frame elements 33. 'Ihe so-calledV outboard wheels or trailer wheels 29 are equipped with forks l34 similar to those employed on the front wheels of bicycles, and these forks are rigidly anchored to the lower ends of the leg-acting frame elements 33 at 35. To add further rigidity to the depending leg-acting frame elements 33, there are provided upwardly converging frame elements 36 see Fig. 2), and laterally inwardly and upwardly converging frame elements 31 (see Fig. 1). The frame elements 36 and 31 are welded to the lower ends of the tubular legacting frame elements 33 and at theirr upper ends said elements 36 and 31 are welded or otherwise rigidly secured to the tubular cross member 32. Standing between the upper end Vportions of the frame elements36 and welded `thereto and to the tubular cross member 32 are forwardly and rearwardly extending braces 38. 'The extreme upper ends of the frame elements 36 extend above the tubular cross member 32 and are welded or otherwise rigidly secured to transverse cross member comprising transverse end sections 40, a transverse intermediatepsection 4I, and downwardly. opening verticallydisposed yokes 42, all of which parts, arerigidly connected together by welding in addition to the bolts shown. The transverse centers ofthe yokes 42 are spaced equal to thespacebetween adjacent rows of corn vin a field to be cut.`

Depending from the transverse crossymember last described and rigidly, connected thereto at their upper ends, preferably by welding or brazing, are guidewayforming bars or rods 43 of which there are two pairs. The lower ends of the outer guide rods 43 are cross-connected to the frame elements 31 by braces 44, and the lower ends of the inner guide rods 43 are tied together and to the frame elements 30 byl laA tie bar 45, the latter being preferably welded to the elements 3U. k .y Y f The gathering and cutting heads are mounted for vertical adjustments on theV guideway-V-forming rods 43 through the mediumv of guides each comprising an upper plate 4S (see .Figs. 1 and 2) andv lower plate 41 (seeFigfQQ', uprights 48 connecting the upper and lowerplates 46 and 41 and guide rollers 49. The llower-plates 41 of the guides are, preferably andas shown, formed integrally with and as outward extensions of the arms 9 and Il] of the cutting and gathering head frames, and these and the upper plates 46 are provided with apertures that loosely receive the guideway-forming rods 43. The uprights 48 are welded or otherwise rigidly secured to the upper and lower plates 146 Vand 41, and the rollers 49 are journalled to theintermediate portions of these uprights 48 by nutequipped bolts, or the like, 50 (see Fig. 3),and these engage the guideway-acting rods. 43 at points spaced apart about the circumferences of said rods 43. f I For the purpose of verticallyr adjusting Nthe f gathering and cutting heads on their respective span the gathering mouths formed between thecooperating endless belts I2 and I3; said yokes being of suflicient height to permit free passage of the tassels to be cut. The upper ends ofthe yokes 5I are connected by the cablesV 52 toV the sheaves 53. In fact, the cables 52 work in grooves in the sheaves 53 and have their extreme upper ends anchored to the sheaves 53 so' that said cables 52 will be wound on or unwound from the sheaves 53 under rotation of the latter. The sheaves 53 are in turn mounted fast on the shaft 54 which is journalled in suitable bearings'II on the yokes 42. The sprocket 55 is also rnount` ed fast on the cross shaft 54, andthe. ,Chain sprocket 56 is mounted fast on the h'ub Vof the hand wheel 6I) and is journalled in common with Said hand wheel on a nut-equipped bolt 62 extending between forwardly and downwardly projecting frame arms 63. The frame arms 63 are rigidly anchored at their upper ends to the structural element 4i and at their lowerpends 'fare fconnected toV fthe structural elements 30 by braces 64. Thelower end of counterba-lanced spring V59 is anchored to the frame extension l through. a .yoke `65 and. eye bolt1e66. Whi1e-the upperend of said spring Y59 is connected .fto -grooved Ysheave-58 through Ya cable G'Lathe. cable "61 runs over the groove periphery of.sheave;.58

weight of the twogathering and cuttingheads Ywhich may now be elevated by themechanism vdescribed through manipulation of han'dzwheel VII'I and will be lowered through the .action sof fgravity when relieved of lifting ltension by said elevator mechanism.

4Inorder to lock the lifting mechanism against 'accidental movements, I providea sort of ratchet lock i-n the nature of a lbolt 68 working in ylongitudinally extending slots 69 in the forwardly extending frame arms63. Due to thedownward vinclination of the frame arms 563 andA slot H69,

the said bolt 68 is gravity pressed toward the periphery of hand wheeland to become seated in circumferentially spaced notches 68 in the 'periphery of said Ywheel-60. This locking action is suilicient to Vprevent accidental lowering-of the gathering and cuttingheadsbut will-be overcome Awhen manual forcev isapplied to the operating hand wheel Ell.

In the preferred embodiment of the invention illustrated the driving of the conveyer -belts I2' and I3 and the rotary knives Id is accomplished through power driving-connections directly coupled to the intermediate'pulleys |30 of the conveyers I3. VVThe se'preferred drivingconnections comprise upwardly extending drive shafts lil,

^ universal joints 'II, coupling shaft 12, upper uni` Vers'aly joints'13 and journalled shafts-74. `The upwardly extending short drive 'shafts IQ are driven from the tractors engine through Vpower transmitting connections, not shown, at a predetermined speed with respect to vehicle ground speed. The shaft section 'I4 is journalled in suitable bearings 'I5 on the frame arms I'Il'Y andare locked to the hubs of pulleys I3c of conveyers I3 by set screws, or the like, 1G. By reference particularly to Fig. 4 it will be `seen that the pulleys I3c of conveyers I3 are mounted on fthe upwardly projecting ends of shaft elements "Iii and that the toothed feeding wheels-2l' are, in turn, mounted on the upwardly projecting hub portions of said pulleys `I3c and are lo-cked thereto for common rotary movement by the set screws 28.

It will now be evident that the positively driven intermediate vpulleys I3c dof conveyClS 'I3 directly drive the conveyer belts `I3 of conveyers I3 which, in turn, run over and drive the pulleys I3a and. I3b of conveyers i3, andit will be further evident that the conveyer belts vI2 and pul leys I2a, I2b and 'I2C of conveyers I2 are'driven by frictional engagement between the outer faces of belts I2 and I3. "Henceyit is imporl tant that the pulleys I 2b and I 2c`of conveyers I2 be so .positionedas to cause cooperating belts I2 yand I3 to run in Contact for an arcuate distance of considerable length about the intermediate pulleys I3c of conveyers I3.

Operation In use the machine illustrated. Ais driven Y'to lthe edge of a field of corn with the tractor i and directed straight down alane between .adjacent rows of born stalks, and at this point the operator, through manipulation of the hand wheel 60, will 'adjust the conveying andcuttingheads of heights whereat the rotary cutters I4 will intersect the Vupper portions of the corn stalk, X, atthe bases -of-the pollen-bearing tassels Y thereof. Usually the corn in any` particular field, and particularly the corn` in a well cared for held of'hybrid seed corn, will be of sufficiently uniform height to. make further-adjustments of the cutter heads unnecessary while working in that particular field. I-Iowever, such further adj-ustments as may be necessary will usuallybe of Vmore or less minor, character andvmay easilyrbe--made by the operator while the machine is moving through the field. With the adjustments thus made, the tractor element is driven-successively straight through the lanesbetween adjacent rows of corn which will successively bring the tassel portions Y of the corn stalks ofrtwo adjacent rows between the conveyer beltsrof opposite gathering and cutting heads andv past the rotary, cutters I4 thereof where the latter will be sheared off and be permitted to fall to thergground. Of course, the trailer-like superstructure spans these adjacent rows Yof corn stalks and is supDOr-ted at its rear by the so-called outboard wheels 29 which run down the lanes :at the outsides Vof the corn stalks being cut.

It should be noted that the coupling shaft 12 is made up of telescopically engaged splined sections which permit longitudinal sliding `movement while maintaining positive driving engagement between the telescopically engaged sections,

see particularly Fig. 7. These connectlonsnand the universal joints described permit the traileracting superstructure to move freely with respect to the tractor structure as the'machine moves over the `regular terrain. l v v What I claim is: f

l. In a corn detasselingY machine, fstlaterally adjacent pair of cooperating Yendless conveyors, said conveyors each comprising frontand rear pulleys and an endless belt running over .said pulleys, one of said conveyors further .comprising an intermediate pulley over which its belt runs, the Yrear pulley of the other conveyor being located forwardlyof the rear pulley of the cooperating conveyor and rearwardlyvof the intermediate pulley of said cooperating conveyor and having its periphery in overlapping relation to a straight line drawn betweenrthe belt-engaging peripheral portions of the -rear and/intermediate pulleys of said cooperating conveyor, whereby the outer faces of the endless belts of adjacent conveyors will run in arcuate face to face contact about a peripheralportion of the said rear pulley of the other conveyor and about a peripheral portion of the said intermediate pulley of the cooperating conveyor,'the adjacent faces of the belts of` the opposite cooperating conveyors diverging forwardly and outwardly from the place of face to face contact to provide a rearwardly converging gathering mouthjtherebetween leading to said place of face toface contact, and mechanism driving said conveyors in directions to produce rearward movement vof the adjacent faces of opposite belts. Y

2. In a corn detasselin'g, machine, a laterally adjacent pair of cooperating endless conveyors,

said conveyors each comprising front `and rear pulleys and an endlessv belt running over said pulleys, one of said conveyors further comprising an intermediate pulley-over lwhich its vbelt runs, -the rear pulley of the other conveyor be: ing located forwardly of the rear pulley .ofthe cooperating conveyor and rearwardly of the intermediate pulley of said cooperting conveyor and having its periphery in overlapping relation to astraight line drawn between thebelt-engaging peripheralportions of the rear and intermediate pulleys of said cooperating conveyor, whereby the outer Ifaces ofv the endless belts of adjacentl conveyors will run in arcuate face to face :contact" about a peripheral portion of the said rear pulleyi of the other conveyor and about'a p eripheral portion of the said intermediate pulley ofthe cooperating conveyor, the adjacent faces of the belts of the opposite cooperating conveyors ,v

diverging forwardly and outwardly from the-place ofgfaceto face contact/,to provide a rearwardly converging gathering mouth therebetween leadingjto said place of face to face contact; vand mechanism driving one of said conveyor'` belts in a direction to producev rearward motion of the face thereof adjacent the other conveyor belt, said other conveyor belt being frictionally driven by said face to face contact with the first said conveyor belt.

3. In a corn detasselingY machine, a laterally adjacent pair of cooperating endless conveyors, said conveyors each comprising front and rear pulleys and an endless belt running over said pulleys, one of said conveyors further comprising an intermediate pulley over which its -belt runs, the rear pulley of the other conveyor being located forwardly of the rear pulley of the cooperating conveyor and rearwardly of the intermediate pulley of said cooperating conveyor and having its periphery in overlapping relation to a straight line drawn between the beltengaging peripheral portions of the rear and intermediate pulleys of said cooperating conveyor, wherebythe outer faces of the endless belts of adjacent conveyors will run in arcuate face to face contact about a peripheral portion of the said rear pulley of the other conveyor and about a peripheral portion of the said intermediate pulley of the cooperating conveyor, the adjacent faces of the belts of the opposite cooperating conveyors diverging forwardly and outwardly from the place of face to face contact to provide a rearwardly converging gathering mouth therebetween leading to said place of face to face contact, and mechanism driving the said intermediate pulley of one of the cooperating conveyors to thereby directly drive the belt of that conveyor, the belt of the other conveyor being frictionally driven by said face to face contact with its cooperating conveyor belt.

4. In a corn detasseling machine, a laterally adjacent pair of cooperating endless conveyors, said conveyors each comprising front and Vrear pulleys and an endless belt running over said pulleys, one of said conveyors further comprising an intermediate pulley over which its belt runs, the rear pulley of the other conveyor being located forwardly of the rear pulley of the cooperating conveyor and rearwardly of the intermediate pulley of said cooperating conveyor and having its periphery in overlapping relation to a straight line drawn between the belt-engaging peripheral portions of the rear and intermediate pulleys of said cooperating conveyor, whereby the outer faces of the endless belts of adjacent conveyors will run in arcuate face to face contact about a peripheral portion of the said rear pulley of the' other conveyor and about a peripheral portion of the said intermediateA pulley of the cooperating conveyor, the adjacent faces of the belts of the opposite cooperating conveyors diverging forwardly and outwardly from the place offaceato face contact to provide a rearwardly converging gathering mouth therebetween leading tosaid place of face to face contact, a toothed feedingA wheel mounted for common coaxial rotation with the said intermediate pulley of one'fof` said conveyors, said toothed feeding wheel being closely adjacent the said intermediate pulley and being of such diameter that the feeding teeth thereof will lap the arcuate line of contact betweenv the belts of opposite conveyors as they run about the said intermediate pulley, and mechanism driving said conveyors in directions to produce rearward movement of adjacent faces of. opposite belts, said toothed feeding .wheel 'servf' ing to positively force corn stalks between the conveyors at the place of normal facetofV face contact. f f l 5. .In a corn detasseling machine, a laterally adjacent pair Yof cooperating endless conveycrs, said conveyors each comprising front and rear pulleys and an endless belt running over said pulleys, one of said conveyors further comprising an intermediate pulley over which its belt runs, the rear pulley of the other conveyor being located forwardly of the rear pulley of the cooperating conveyor and rearwardly of the intermediate pulley of said cooperating conveyor and having its periphery in overlapping relation to a straight line drawn between the belt-engaging peripheral portions of the rear and intermediate pulleys of said cooperating conveyor, whereby the outer faces of the endless belts of adjacent conveyors will run in arcuate face to face contact about a peripheral portion of the said rear pulley of the other conveyor and about a peripheral portion of the said intermediate pulley of the cooperating conveyor, the adjacent faces of the belts of a the opposite cooperating conveyors diverging forwardly and outwardly from the place of face to face contact to provide a rearwardly converging gathering mouth therebetween leading to said place of face to face contact, a toothed feeding wheel mounted for common coaxial rotation with the said intermediate pulley of one of said conveyors, said toothed feeding wheel being closely adjacent the said intermediate pulley and being of such diameter that the feeding teeth thereof will lap the arcuate line of contact between the belts of opposite conveyors as they run about the said intermediate pulley, and mechanism driving said conveyors in directions to produce rearward movement of adjacent faces of opposite belts, said toothed feeding wheel serving to positively force corn stalks between the conveyors at the place of face to face contact, the said driving mechanism comprising power transmission connections directly to the said intermediate pulley and toothed wheel.

6. The structure defined in claim 1 in further combination with a cutter arranged to intersect and cut corn stalks as they are moved rearwardly by and are gripped between the normally engaged faces of the adjacent belts. 7. The structure dened in claim 4 in further combination with a cutter arranged-to intersect and cut corn stalks as they are moved rearwardly by and are gripped between the normally engaged faces of the adjacent belts.

8. In a corn detasseling machine, a laterally adjacent pair of cooperating endless conveyors, said conveyors each comprising front and rear pulleys and an endless belt running over said ill pulleys, the rear pulley of one conveyor being located forwardlyof' the rear'pulley of theY cooperating conveyor and having its periphery in overlapping relation to a straight line drawn between the adjacent belt-engaging peripheral portions of the front and rear pulleys of the cooperating conveyor, whereby the outer facesY of the endless belts of adjacent conveyors will run in arcuate face to face contact about a peripheral portion of the rear pulley of said one conveyor, the adjacent faces of the belts of opposite conveyors diverging forwardly and outwardly from the place of face to face contact toward their front pulleys to provide a rearwardly converging gathering mouth therebetween leading to said place of face to face contact, and mechanism driving said conveyors in directions to produce rearward movement of the adjacentfaces of opposite belts.

9. The structure defined in claim 8 in further combination with a cutter arranged to intersect and cut corn stalks as they are moved rearwardly 1'2 by and are gripped between thenormally-engaged faces of adjacent belts.

WALTER R. DAVIES.

REFERENCES CITED The following references are of record in' the le of this patent:

UNITED STATES PATENTS Number Name Date 903,666 Becerra Nov. 10, 1908 1,090,802l Thomas et al Mar. 17', 1914' 1,194,660 Patt Aug. 15, 1916' 1,228,200 Freeman et al yMay 29, 1917 1,295,651 Wells Feb. 25, 1919' 1,457,827: Erb June 5, 1928` 1,909,909 Stru'ebing May 16, 1933 1,925,975 Benner Sept. 5, 1933 2,095,007 Pii/ster Oct. 5, 1937 2,139,883 Curry Dec. 13, 1938 2,380,161 Flook July 10, 1945 2,435,334 Wurtele Feb. 3, 1948 

